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REST Navigator is a python library for interacting with hypermedia apis (REST level 3). Right now, it only supports HAL+JSON but it should be general enough to extend to other formats eventually. Its first goal is to make interacting with HAL hypermedia apis as painless as possible, while discouraging REST anti-patterns.
To install it, simply use pip:
$ pip install restnavigator
To begin interacting with a HAL api, you've got to create a HALNavigator that points to the api root. Ideally, in a hypermedia API, the root URL is the only URL that needs to be hardcoded in your application. All other URLs are obtained from the api responses themselves (think of your api client as 'clicking on links', rather than having the urls hardcoded).
As an example, we'll connect to the haltalk api.
>>> from restnavigator import Navigator
>>> N = Navigator.hal('http://haltalk.herokuapp.com/', default_curie="ht")
>>> N
HALNavigator(Haltalk)
Usually, with the index (normally at the api root), you're most interested in the links. Let's look at those:
>>> N.links()
{u'ht:users': HALNavigator(Haltalk.users),
u'ht:signup': HALNavigator(Haltalk.signup),
u'ht:me': TemplatedThunk(Haltalk.users.{name}),
u'ht:latest-posts': HALNavigator(Haltalk.posts.latest)}
(This may take a moment because asking for the links causes the HALNavigator to actually request the resource from the server).
Here we can see that the links are organized by their relation type (the key), and each key corresponds to a new HALNavigator that represents some other resource. Relation types are extremely important in restful apis: we need them to be able to determine what a link means in relation to the current resource, in a way that is automatable.
In addition, the root has some state associated with it which you can get in two different ways:
>>> N() # cached state of resource (obtained when we looked at N.links)
{u'hint_1': u'You need an account to post stuff..',
u'hint_2': u'Create one by POSTing via the ht:signup link..',
u'hint_3': u'Click the orange buttons on the right to make POST requests..',
u'hint_4': u'Click the green button to follow a link with a GET request..',
u'hint_5': u'Click the book icon to read docs for the link relation.',
u'welcome': u'Welcome to a haltalk server.'}
>>> N.fetch() # will refetch the resource from the server
{u'hint_1': u'You need an account to post stuff..',
u'hint_2': u'Create one by POSTing via the ht:signup link..',
u'hint_3': u'Click the orange buttons on the right to make POST requests..',
u'hint_4': u'Click the green button to follow a link with a GET request..',
u'hint_5': u'Click the book icon to read docs for the link relation.',
u'welcome': u'Welcome to a haltalk server.'}
Calling a HALNavigator will execute a GET request against the resource and returns its value (which it will cache).
Let's register a hal talk account. Unfortunately, we don't really know
how to do that, so let's look at the documentation. The ht:signup
link looks promising, let's check that:
>>> N.docsfor('ht:signup')
A browser will open to http://haltalk.herokuapp.com/rels/signup.
What? Popping up a browser from a library call? Yes, that's how rest_navigator rolls. The way we see it: docs are for humans, and while custom rel-types are URIs, they shouldn't automatically be dereferenced by a program that interacts with the api. So popping up a browser serves two purposes:
- It allows easy access to the documentation at the time when you most need it: when you're mucking about in the command line trying to figure out how to interact with the api.
- It reminds you not to try to automatically dereference the rel documentation and parse it in your application.
If you need a more robust way to browse the api and the documentation, HAL Browser is probably your best bet.
The docs for ht:signup
explain the format of the POST request to
sign up. So let's actually sign up. Since we've set "ht"
as our
default curie, we can skip typing the curie for convenience. (Note:
haltalk is a toy api for example purposes, don't ever send plaintext
passwords over an unencrypted connection in a real app!):
>>> fred23 = N['signup'].create(
... {'username': 'fred23',
... 'password': 'hunter2',
... 'real_name': 'Fred 23'}
... )
>>> fred23
HALNavigator(Haltalk.users.fred23)
If the user name had already been in use, a 400 would have been returned
from the haltalk api. rest_navigator follows the Zen of Python
guideline "Errors should never pass silently". An exception would have
been raised on a 400 or 500 status code. You can squelch this exception
and just have the post call return a HALNavigator
with a 400/500
status code if you want:
>>> dup_signup = N['ht:signup'].create({
... 'username': 'fred23',
... 'password': 'hunter2',
... 'real_name': 'Fred Wilson'
... }, raise_exc=False)
>>> dup_signup
OrphanHALNavigator(Haltalk.signup) # 400!
>>> dup_signup.status
(400, 'Bad Request')
>>> dup_signup.state
{u"errors": {u"username": [u"is already taken"]}}
Now that we've signed up, lets take a look at our profile. The link for
a user's profile is a templated link, which restnavigator represents as
a PartialNavigator
. Similar to python's
functools.partial,
a PartialNavigator
is an object that needs a few more arguments to
give you a full navigator back. Despite its name, it can't talk to the
network by itself. Its job is to to generate new navigators for you. You
can see what variables it has by looking at its .variables
attribute
(its __repr__
hints at this as well):
>>> N.links().keys()
['ht:latest-posts', 'ht:me', 'ht:users', 'ht:signup']
>>> N['ht:me']
PartialNavigator(Haltalk.users.{name})
>>> N['ht:me'].variables
set(['name'])
The documentation for the ht:me
rel type should tell us how the name
parameter is supposed to work, but in this case it's fairly obvious
(plug in the username). Two provide the template parameters, just call
it with keyword args:
>>> partial_me = N['ht:me']
>>> partial_me.template_uri
'http://haltalk.herokuapp.com/users/{name}'
>>> Fred = partial_me(name='fred23')
>>> Fred
HALNavigator('haltalk.users.fred23')
Now that we have a real navigator, we can fetch the resource:
>>> Fred()
{u'bio': None, u'real_name': u'Fred Wilson', u'username': u'fred23'}
In order to post something to haltalk, we need to authenticate with our newly created account. HALNavigator allows any authentication method that requests supports (so OAuth etc). For basic auth (which haltalk uses), we can just pass a tuple.
>>> N.authenticate(('fred23', 'hunter2')) # All subsequent calls are authenticated
This doesn't send anything to the server, it just sets the authentication details that we'll use on the next request. Other authentication methods may contact the server immediately.
Now we can put it all together to create a new post:
>>> N_post = N['me'](name='fred23')['posts'].create({'content': 'My first post'})
>>> N_post
HALNavigator(Haltalk.posts.523670eff0e6370002000001)
>>> N_post()
{'content': 'My first post', 'created_at': '2015-06-13T19:38:59+00:00'}
It is also possible to specify a custom requests Session object when creating a new navigator.
For example, if you want to talk to a OAuth2 protected api, simply pass an OAuth2 Session object that will be used for all requests done by HALNavigator:
>>> from requests_oauthlib import OAuth2Session
>>> oauth2_session = OAuth2Session(r'client_id', token='token')
>>> N = Navigator.hal('https://api.example.com', session=oauth2_session)
You don't need to worry about inadvertently having two different navigators pointing to the same resource. rest_navigator will reuse the existing navigator instead of creating a new one
If a resource has a link with the rel "next", the navigator for that resource can be used as a python iterator. It will automatically raise a StopIteration exception if a resource in the chain does not have a next link. This makes moving through paged resources really simple and pythonic:
post_navigator = fred['ht:posts']
for post in post_navigator:
# the first post will be post_navigator itself
print(post.state)
HTTP response headers are available in N.response.headers
Headers that will be sent on each request can be obtained through the session:
>>> N.session.headers
# Cookies, etc
The bracket ([]
) operator on Navigators has a lot of power. As we
saw earlier, the main use is to get a new Navigator from a link
relation:
>>> N2 = N['curie:link_rel']
But, it can also go more than one link deep, which is equivalent to using multiple brackets in a row:
>>> N3 = N['curie:first_link', 'curie:second_link']
# equivalent to:
N3 = N['curie:first_link']['curie:second_link']
And of course, if you set a default curie, you can omit it:
>>> N3 = N['first_link', 'second_link']
Internally, this is completely equivalent to repeatedly applying the bracket operator, so you can even use it to jump over intermediate objects that aren't Navigators themselves:
>>> N['some-link', 3, 'another-link']
This would use the some-link
link relation, select the third link
from the list, and then follow another-link
from that resource.
Normally, you can chain together brackets to jump from one resource to another in one go:
>>> N['ht:widget']['ht:gadget']
This will return a Navigator for the ht:widget
link relation and
then immediately fetch the resource and return a Navigator for the
ht:gadget
link relation. This works great if you have only one link
per relation, but HAL allows multiple links per relation. Say for
instance we have some links like the following:
"ht:some_rel: [
{
"href": "/api/widget/1",
"name": "widget1",
"profile": "widget"
},
{
"href": "/api/widget/2",
"name": "widget2",
"profile": "widget"
},
{
"href": "/api/gadget/1",
"name": "gadget1",
"profile": "gadget"
}
]
When we go to get the ht:some_rel
, we'll get multiple results:
>>> N['ht:some_rel']
[HALNavigator(api.widget[1]),
HALNavigator(api.widget[2]),
HALNavigator(api.gadget[1])]
How do we know which one is the one we want? The HAL
spec
says links with the same rel can be disambiguated by the name
link
property:
>>> N.links['ht:some_rel'].get_by('name', 'gadget1')
HALNavigator(api.gadget[1])
>>> N.links['ht:some_rel'].named('gadget1') # same as previous
HALNavigator(api.gadget[1])
We could also use other properties to slice and dice the list:
>>> N.links['ht:some_rel'].get_by('profile', 'gadget')
HALNavigator(api.gadget[1])
>>> N.links['ht:some_rel'].getall_by('profile', 'widget')
[HALNavigator(api.widget[1]), HALNavigator(api.widget[2])]
This works for any property on links, not just the standard HAL properties.
You may specify a default curie when creating your Navigator:
>>> N = HALNavigator('http://haltalk.herokuapp.com', curie='ht')
Now, when you follow links, you may leave off the default curie if you want:
>>> N.links
{'ht:users': [HALNavigator(Haltalk.users)],
'ht:signup': [HALNavigator(Haltalk.signup)],
'ht:me': [HALNavigator(Haltalk.users.{name})],
'ht:latest-posts': [HALNavigator(Haltalk.posts.latest)]
}
>>> N['ht:users']
HALNavigator(Haltalk.users)
>>> N['users']
HALNavigator(Haltalk.users)
The only exception is where the key being supplied is a IANA registered link relation, and there is a conflict (hint: this should be quite rare):
>>> N.links
{'ht:next': HALNavigator(Haltalk.unregistered),
'next': HALNavigator(Haltalk.registered)}
>>> N['next']
HALNavigator(Haltalk.registered)
Sometimes the automatic api naming guesses poorly. If you'd like to override the default name, you can specify it when creating the navigator:
>>> N = Navigator.hal('http://api.example.com', apiname='MySpecialAPI')
HALNavigator(MySpecialAPI)
In rest_navigator, embedded documents are treated transparently. This means that in many cases you don't need to worry about whether a document is embedded or whether it's just linked.
As an example, assume we have a resource like the following:
{
"_links": {
...
"xx:yams": {
"href": "/yams"
}
...
},
"_embedded": {
"xx:pickles": {
"_links": {
"self": {"href": "/pickles"}
},
"state": "A pickle"
}
}
...
}
From here, you would access both the yams
and the pickles
resource with normal bracket syntax:
>>> Yams = N['xx:yams']
>>> Pickles = N['xx:pickles']
The only difference here is that Yams
hasn't been fetched yet, while
Pickles
is considered "resolved" already because we got it as an
embedded document.
>>> Yams.resolved False >>> Yams.state # None >>> Pickles.resolved True >>> Pickles.state {'state': 'A pickle'}
If an embedded document has a self link, you can treat it just like you would any other resource. So if you want to refresh the resource, it's as easy as:
>>> Pickles.fetch()
This will fetch the current state of the resource from the uri in its
self link, even if you've never directly requested that uri before. If
an embedded resource doesn't have a self link, it will be an
OrphanNavigator
with the parent set to the resource it was embedded
in.
Of course, if you need to directly distinguish between linked resources and embedded resources, there is an out:
>>> N.embedded()
{'xx:pickles': HALNavigator(api.pickles)
>>> N.links()
{'xx:yams': HALNavigator(api.yams)
However, when using the in
operator, it will look in both for a key
you're interested in:
>>> 'yams' in N # default curie is taken into account!
True
>>> 'xx:yams in N
True
>>> 'xx:pickles' in N
True
To run tests, first install the pytest framework:
$ pip install -U pytest
To run tests, execute following from the root of the source directory:
$ py.test
- Ability to add hooks for different types, rels and profiles. If a link has one of these properties, it will call your hook when doing a server call.
- Since HAL doesn't specify what content type POSTs, PUTs, and PATCHes need to have, you can specify the hooks based on what the server will accept. This can trigger off either the rel type of the link, or rest navigator can do content negotiation over HTTP with the server directly to see what content types that resource will accept.
Thanks very much to rest navigator's contributors: